Asymmetric Organic Reactions in Water

Han Yong Bae; Woo Hee Kim; Seok Ju Hong

doi:10.1002/9783527846849.ch13

Asymmetric Organic Reactions in Water

Han Yong Bae
, Woo Hee Kim
, Seok Ju Hong

Department of Chemistry

Sungkyunkwan University

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Scopus citations

Abstract

This chapter explores the advancements and current state of asymmetric synthesis in bulk water, highlighting its pivotal role in sustainable chemistry. Advanced small molecular catalysts, including chiral metal complexes and organocatalysts, are showcased, underscoring the versatility of synthetic strategies employed. Focusing on crucial catalytic activation mechanisms, asymmetric reactions in water are categorized into four main types: metal (Lewis acid) catalysis, Lewis base organocatalysis, Brønsted acid, and Brønsted base organocatalysis. The chapter presents significant progress in asymmetric reduction, oxidation, and various bond formation reactions, demonstrating how water can enhance selectivity and reactivity.

Original language	English
Title of host publication	Organic Transformations in Water
Subtitle of host publication	Principles and Applications
Publisher	wiley
Pages	251-268
Number of pages	18
ISBN (Electronic)	9783527846849
ISBN (Print)	9783527353774
DOIs	https://doi.org/10.1002/9783527846849.ch13
State	Published - 1 Jan 2024

Keywords

aqueous reaction
asymmetric metal catalysis
asymmetric organocatalysis
asymmetric synthesis
water

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AB - This chapter explores the advancements and current state of asymmetric synthesis in bulk water, highlighting its pivotal role in sustainable chemistry. Advanced small molecular catalysts, including chiral metal complexes and organocatalysts, are showcased, underscoring the versatility of synthetic strategies employed. Focusing on crucial catalytic activation mechanisms, asymmetric reactions in water are categorized into four main types: metal (Lewis acid) catalysis, Lewis base organocatalysis, Brønsted acid, and Brønsted base organocatalysis. The chapter presents significant progress in asymmetric reduction, oxidation, and various bond formation reactions, demonstrating how water can enhance selectivity and reactivity.

KW - aqueous reaction

KW - asymmetric metal catalysis

KW - asymmetric organocatalysis

KW - asymmetric synthesis

KW - water

UR - https://www.scopus.com/pages/publications/85218666382

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BT - Organic Transformations in Water

PB - wiley

ER -

Asymmetric Organic Reactions in Water

Abstract

Keywords

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